JP2008023024A - Shaver - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make it possible to dry a shaver after washing without using an exclusive washing device. <P>SOLUTION: In the shaver 1, a fuel cell 11 for the power source of a motor 5 is used to eliminate the restriction of power source wiring , so that the selection range of a keeping place can be widened. Exhaust heat by the power generation of the fuel cell 11 is led to the vicinity of a cutter 6 by a heat pipe 12 and is used as a heat source for heating the cutter 6. Thus, drying after washing is accelerated without using the exclusive washing device, also blades 6 and 7 are heated and sterilized, and the energy availability of the fuel cell 11 is improved. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a shaver that is realized as an electric razor, a trimmer, or the like, and more particularly to a shaver that is suitably implemented with a configuration that can wash body hair and skin tissue attached to a blade edge with water.

  A typical prior art of the water-washable shaver as described above has been proposed in Patent Document 1 by, for example, the present applicant. In the prior art, a shaver has been proposed in which water and chips are prevented from splashing during washing by driving the inner blade fast when shaving and slow when washing. However, water drops remain inside after washing with water, and sterilization and sterilization are not sufficient.

Therefore, for example, Patent Document 2 and Patent Document 3 propose a cleaning apparatus in which the blade edge is cleaned with alcohol after use and then dried. When such a cleaning device is used, drying is performed at a high temperature, and the cutting edge can be kept clean.
JP 2004-16285 A Japanese Patent No. 36552393 JP 2004-243112 A

  In the prior arts of Patent Document 2 and Patent Document 3, although the blade edge can be kept clean, a large cleaning device is required, and there is a problem that a place for placement and a power source (outlet) must be considered. is there.

  An object of the present invention is to provide a shaver that can easily keep the cutting edge clean.

  The shaver according to the present invention is a shaver that performs a hair removal process by driving a blade that is driven by displacement of a blade, a fuel cell that generates electric power for energizing the driving device, and the fuel And heat transfer means for guiding exhaust heat from the battery to the vicinity of the blade.

  According to the above configuration, in a shaver realized as an electric razor, trimmer, etc., a fuel cell is used as the power source of the shaver, the heat generated by the power generation is guided to the vicinity of the blade by heat transfer means, and the blade is heated. Used as a heat source.

  Therefore, there is no restriction on the power supply wiring by driving the fuel cell, and the exhaust heat from the fuel cell is transmitted to the vicinity of the blade to the shaver that can expand the selection range of the storage place, without using a dedicated cleaning device etc. Drying after washing with water can be promoted, the blade can be sterilized by heating, and the energy utilization efficiency of the fuel cell can be increased.

  The shaver according to the present invention includes a power storage unit that stores the power generated by the fuel cell, a supply unit that supplies fuel to the fuel cell, and a power source that energizes the drive unit to power the drive unit. The apparatus further includes a control unit that performs a hair removal process, causes the supply unit to supply fuel to the fuel cell after completion of the hair removal process, and stores the generated power in the power storage unit.

  According to the above configuration, the apparatus further includes power storage means such as a secondary battery, and the hair removal process is performed by energizing the driving means with the power from the power storage means. After the completion of the operation, the control means causes the supply means to supply fuel to the fuel cell, and causes the generated power to be stored in the power storage means.

  Therefore, power generation is performed after the end of the hair removal treatment, that is, heat is generated, which is suitable for drying after the water washing and heat sterilization of the blade.

  Furthermore, in the shaver according to the present invention, the blade driven by the driving means is an inner blade, and the inner blade is included in a space including an outer blade, a casing, and a base, and the heat transfer means is the base. It is connected to.

  According to the above configuration, when the base is heated, hot air is generated in the space surrounded by the outer blade, the casing, and the base, and the outer blade and the inner blade are dried and sterilized by the hot air. Can do.

  Therefore, it is possible to dry or sterilize the heat transfer means without directly connecting and heating the heat transfer means to the inner and outer blades where dirt accumulates, in particular, the inner blade driven to be displaced.

  Preferably, in the shaver according to the present invention, the heat transfer means is a heat pipe.

  According to said structure, the waste heat in a fuel cell can be efficiently guide | induced to a blade.

  In the shaver of the present invention, the heat transfer means is a blower, and has a function of both a blower for heating the blade and a blower for heat dissipation in the power generation unit of the fuel cell.

  According to said structure, cost can be reduced by sharing a fan.

  Preferably, in the shaver according to the present invention, the fuel cell uses ethanol as a fuel.

  According to said structure, by using ethyl alcohol compared with methyl alcohol, while having low toxicity and being easy to acquire, there is much calorific value, it is suitable for the said drying and disinfection.

  As described above, the shaver of the present invention is a shaver realized as an electric razor, a trimmer, or the like. A fuel cell is used as the power source of the shaver, and the heat generated by the power generation is guided to the vicinity of the blade by heat transfer means. Used as a heat source to heat the blade.

  Therefore, the fuel cell drive eliminates the restrictions on power supply wiring, and the exhaust heat from the fuel cell is transmitted to the vicinity of the blade to a shaver that can expand the selection range of the storage location without using a dedicated cleaning device or the like. The drying after washing with water can be promoted, the blade can be sterilized by heating, and the energy utilization efficiency of the fuel cell can be increased.

  Further, as described above, the shaver according to the present invention further includes power storage means such as a secondary battery, and the hair removal process is performed by energizing the drive means with power from the power storage means. Then, after the hair removal process is completed, the control means causes the supply means to supply fuel to the fuel cell, and the generated power is stored in the power storage means.

  Therefore, power generation is performed after the end of the hair removal treatment, that is, heat is generated, which is suitable for drying after the water washing and heat sterilization of the blade.

  Furthermore, as described above, the shaver according to the present invention uses the blade driven by the driving means as an inner blade, and the inner blade is included in a space composed of an outer blade, a casing and a base, and the heat transfer means. Is connected to the base, and the base is heated, so that hot air is generated in the space, and the outer blade and the inner blade are dried and sterilized by the hot air.

  Therefore, it is possible to dry and sterilize the heat transfer means without directly connecting the heat transfer means to the inner and outer blades where dirt accumulates, in particular, the inner blade which is driven to move.

  In addition, as described above, the shaver of the present invention uses a blower as the heat transfer means, and combines the function of a blower for heating the blade and a blower for heat dissipation in the power generation unit of the fuel cell.

  Therefore, it is possible to reduce the cost by sharing the blower.

[Embodiment 1]
1 and 2 are diagrams for explaining the structure of a shaver 1 according to an embodiment of the present invention. FIG. 1 is a front view with a part cut away, and FIG. FIG. In the shaver 1, when the slide switch 2 is operated, the electric circuit formed on the substrate 3 applies the electric power stored in the secondary battery 4 to the motor 5 and causes the inner blade 6 to reciprocate linearly. A hair removal process is performed between the inner blade 6 and the outer blade 7. Further, if necessary, the trimmer 9 provided on the back surface of the main body 8 is operated, so that the driving force is transmitted to the trimmer 9 and the hair removal process can be performed.

  It should be noted that in this shaver 1, the electric power generated in the fuel cell 11 is used for energizing the electric power of the motor 5 that is the driving means, and the heat pipe 12 that is the heat transfer means that exhausts heat from the fuel cell 11 is used. In this case, the inner blade 6 is guided to the vicinity of the inner blade 6 and used as a heat source for heating the inner blade 6. For this reason, the cartridge tank 13 is detachably attached to the bottom 8a of the main body 8, and when the cartridge tank 13 is mounted, the accumulated ethanol 14 is sucked up from the pipe line 15 by the pump 16 serving as a supply means. And supplied to the fuel cell 11.

  The fuel cell 11 is configured by sandwiching an electrolytic membrane between a cathode and an anode, and generates electricity by reacting the ethanol 14 sucked up by the pump 16 with oxygen in the air. By power generation, air (oxygen) is taken in on the cathode side, and water is discharged. The water is once absorbed by an absorbing means (not shown) such as a cloth, and then diffused into the air. 14 is taken in and carbon dioxide is discharged. The generated electric power is input to an electric circuit formed on the substrate 3, boosted, and stored in the secondary battery 4.

  3 and 4 are exploded perspective views of the vicinity of the blade mounting base 21 mounted on the upper portion 8b of the main body 8. FIG. Below the blade mounting base 21 that is a base, the motor 5 is mounted by screws 22. From the motor 5, through a hole 21a formed in the center of the blade mounting base 21, a pair of front and rear drive elements 23 that linearly reciprocate is projected. An inner blade push-up spring 24 is attached to the driver 23 by a spring stop member 25, and when the detachable inner blade 6 is attached to the driver 23, the inner blade push-up spring 24 The inner blade 6 is pressed against the outer blade 7.

  The base end side of the driver element 23 is a large-diameter waterproof seal portion 23a. After the driver element 23 is inserted through the inner O-ring portion 26a of the waterproof rubber 26, the waterproof seal portion 23a is connected to the inner O-ring. It closely adheres to the inner peripheral surface of the portion 26a. On the other hand, the waterproof rubber 26 is sandwiched between the rubber pressing plate 27 and the blade mounting base 21 by attaching the rubber pressing plate 27 to the blade mounting base 21 with the screws 22. And the protruding item | line 21b formed in the peripheral part of the said hole 21a fits in the outer peripheral part 26b of the said waterproof rubber 26. FIG. Thus, the waterproof rubber 26 keeps the inner structure of the main body 8 such as the motor 5 airtight against the cleaning of the inner blade 6 with the outer blade 7 removed.

  Here, in the present embodiment, a hole 21c is formed in the corner portion of the blade mounting base 21, and the tip of the heat pipe 12 contacts the rubber pressing plate 27 through the hole 21c. As a result, the rubber pressing plate 27 is heated, and hot air is blown into the outer blade 7 and the space surrounded by the blade mounting base 21 from the rubber pressing plate 27, and the hot air dries and sterilizes the outer blade 7 and the inner blade 6. It can be performed. Thus, the heat pipe 12 can be dried and sterilized without being directly connected to the inner blade 6 and the outer blade 7 where dirt is accumulated, and in particular, the inner blade 6 that is driven to be displaced and heated.

  For example, in the present embodiment, the ethanol 14 is used as a fuel, but in the case of the direct methanol system, 1 cc of fuel is required to obtain 1 Wh of electric power. .3cc of fuel is required. When power generation is performed using that much fuel, for example, the temperature of the outer blade 7 is about 70 ° C., and even if the user uses it to shave off the shave during power generation and drying, it feels hot instantly. The outer blade 7 cools immediately upon contact with the skin and does not cause burns.

  FIG. 5 is a block diagram showing a configuration of an electric circuit mounted on the substrate 3 in the shaver 1 configured as described above. The electric power generated by the fuel cell 11 is boosted by a DC-DC converter 31 such as a switching regulator, stabilized, supplied to the secondary battery 4 via the diode 32, and stored. The control circuit 33 such as a microcomputer operates by the electric power stored in the secondary battery 4, and the switch element 34 such as FET is controlled in response to the operation of the slide switch 2 to drive the motor 5.

  The control circuit 33 drives the pump 16 to generate power in the fuel cell 11 after a predetermined time, for example, 5 to 10 minutes has elapsed since the operation of the slide switch 2 is lost and the hair removal process is completed. Make it. The pump 16 may be driven by providing a dedicated cleaning switch in response to the operation of the cleaning switch, or detecting that the outer blade 7 has been removed for cleaning. Also good. At this time, the blades 6 and 7 may be controlled not to be heated by driving the pump 16 intermittently, and a temperature sensor is provided in the vicinity of the rubber pressing plate 27, and according to the detection result. The discharge amount of the pump 16 may be controlled so that the blades 6 and 7 are not heated.

  On the other hand, an AC terminal 35 is provided at the bottom 8a of the main body 8 for backup. The power from the AC terminal 35 is stepped down by an AC-DC converter 36 such as a switching regulator and stabilized. The secondary battery 4 is supplied via the diode 36 and stored. Therefore, even if the secondary battery 4 is discharged or the fuel runs out, the control circuit 33 and the motor 5 can be operated, and the fuel cell 11 can generate power by sucking up the fuel.

  By using the fuel cell 11 as the power source of the motor 5 in this way, there is no restriction on the power supply wiring, and a shaver capable of expanding the selection range of the storage location can be realized. In addition, the exhaust heat generated by the power generation of the fuel cell 11 is guided to the vicinity of the inner blade 6 by the heat pipe 12 and is used as a heat source for heating the inner blade 6, so that after washing with water without using a dedicated cleaning device or the like. Can be promoted, the blades 6 and 7 can be sterilized by heating, and the energy utilization efficiency of the fuel cell 11 can be increased.

  Also, a secondary battery 4 for storing the power generated by the fuel cell 11 is provided, and the motor 5 is energized with the power from the secondary battery 4 to perform the hair removal treatment, After the hair removal process is completed, the control circuit 33 causes the pump 16 to supply fuel to the fuel cell 11 and the generated power is stored in the secondary battery 4, so that power generation is performed after the hair removal process is completed, That is, heat is generated, which is suitable for drying after washing with water and heat sterilization of blades.

  Furthermore, by using the heat pipe 12 as the heat transfer means, the exhaust heat in the fuel cell 11 can be efficiently guided to the blades 6 and 7. In addition, since the fuel cell 11 uses ethanol as a fuel, ethyl alcohol is less toxic than methyl alcohol, is easily available, has a large calorific value, and is suitable for the drying and sterilization. .

[Embodiment 2]
6 and 7 are views for explaining the structure of a shaver 41 according to another embodiment of the present invention. FIG. 6 is a front view with a part cut away, and FIG. FIG. The shaver 41 is similar to the above-described shaver 1, and corresponding portions are denoted by the same reference numerals and description thereof is omitted. It should be noted that in the shaver 41, a blower 42 is used as a heat transfer means for conducting the exhaust heat from the fuel cell 11 to the rubber restraining plate 27, and the blower 42 heats the blades 6 and 7. And a function of a heat dissipating fan in the power generation unit of the fuel cell 11.

  For this reason, the air inlet 43 is formed in the bottom 48a of the main body 48, and the air sucked from the air inlet 43 cools the fuel cell 11 as shown by reference numeral F1, passes through the blower 42, and is then referred to. After being discharged from the exhaust ports 44 and 45 formed in the upper part 48b of the main body 48 as indicated by reference numerals F2 and F3, and after branching and passing through the back side of the rubber pressing plate 27 as indicated by reference numeral F4. The air is discharged from an exhaust port 46 formed in the side portion of the blade mounting base 21. The configuration of the remaining pump 16 and the secondary battery 4 is the same as that of the shaver 1, but the control circuit mounted on the substrate 3 is appropriately connected to the blower 42 in accordance with the driving of the motor 5 and the power generation of the fuel cell 11. Drive.

  By comprising in this way, the fan 42 can be shared and cost can be reduced.

  The motor 5 is not limited to a linear motor, and a motor that rotationally drives the output shaft may be configured to include a link mechanism that converts the rotational output into the linear reciprocating motion. It may be a blade.

It is a front view which notches and shows a part for demonstrating the structure of the shaver which concerns on one Embodiment of this invention. It is sectional drawing in the front-back direction for demonstrating the structure of the shaver which concerns on one Embodiment of this invention. It is a disassembled perspective view of the blade mounting base vicinity mounted in the upper part of the main body of the said shaver. It is a disassembled perspective view of the blade mounting base vicinity mounted in the upper part of the main body of the said shaver. It is a block diagram which shows the example of 1 structure of the electric circuit of the said shaver. It is a front view which notches and shows a part for demonstrating the structure of the shaver which concerns on other embodiment of this invention. It is sectional drawing in the front-back direction for demonstrating the structure of the shaver which concerns on other embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,41 Shaver 2 Slide switch 3 Board | substrate 4 Secondary battery 5 Motor 6 Inner blade 7 Outer blade 8,48 Main body 9 Trimmer 11 Fuel cell 12 Heat pipe 13 Cartridge tank 14 Ethanol 16 Pump 21 Blade mounting base 23 Driver 26 Waterproof rubber 27 Rubber holding plate 31 DC-DC converter 33 Control circuit 34 Switch element 35 AC terminal 42 Blower 43 Inlet 44, 45, 46 Exhaust

Claims (4)

In a shaver that performs hair removal processing by driving the power-driven drive means to displace the blade,
A fuel cell for generating electric power for energizing the driving means with the electric power;
And a heat transfer means for guiding heat exhausted by the fuel cell to the vicinity of the blade. Power storage means for storing the power generated by the fuel cell;
Supply means for supplying fuel to the fuel cell;
The power storage means energizes the drive means to perform the hair removal process, and after the hair removal process is completed, the supply means supplies fuel to the fuel cell, and the generated power is supplied to the power storage means. The shaver according to claim 1, further comprising control means for storing.   The blade driven by the driving means is an inner blade, the inner blade is included in a space composed of an outer blade, a casing and a base, and the heat transfer means is connected to the base. The shaver according to claim 1 or 2.   The heat transfer means is a blower, and has both functions of a blower for heating the blade and a blower for heat dissipation in the power generation unit of the fuel cell. Shaver as described in.

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